TY - JOUR
T1 - Scales in nuclear matter
T2 - Chiral dynamics with pion nucleon form factors
AU - Kaiser, N.
AU - Mühlbauer, M.
AU - Weise, W.
PY - 2007/1
Y1 - 2007/1
N2 - A systematic calculation of nuclear matter is performed which includes the long-range correlations between nucleons arising from one- and two-pion exchange. Three-body effects from 2π exchange with excitations of virtual Δ(1232)-isobars are also taken into account in our diagrammatic calculation of the energy per particle Ē(k f). In order to eliminate possible high-momentum components from the interactions we introduce at each pion-baryon vertex a form factor of monopole type. The empirical nuclear matter saturation point, ρ0 ≃ 0.16fm-3, Ē0 ≃ - 16MeV, is well reproduced with a monopole mass of Λ ≃ 4πf π ≃ 1.16GeV. As in the recent approach based on the universal low-momentum NN potential V low-k, the inclusion of three-body effects is crucial in order to achieve saturation of nuclear matter. We demonstrate that the dependence of the pion exchange contributions to Ē(k f) on the "resolution" scale Λ can be compensated over a wide range of Λ by counterterms with two "running" contact couplings. As a further application we study the in-medium chiral condensate 〈q̄q〉 (ρ) beyond the linear density approximation. For ρ ≤ 1.5ρ0 we find small corrections from the derivative dĒ(k f)/dm π, which are stable against variations of the monopole regulator mass Λ.
AB - A systematic calculation of nuclear matter is performed which includes the long-range correlations between nucleons arising from one- and two-pion exchange. Three-body effects from 2π exchange with excitations of virtual Δ(1232)-isobars are also taken into account in our diagrammatic calculation of the energy per particle Ē(k f). In order to eliminate possible high-momentum components from the interactions we introduce at each pion-baryon vertex a form factor of monopole type. The empirical nuclear matter saturation point, ρ0 ≃ 0.16fm-3, Ē0 ≃ - 16MeV, is well reproduced with a monopole mass of Λ ≃ 4πf π ≃ 1.16GeV. As in the recent approach based on the universal low-momentum NN potential V low-k, the inclusion of three-body effects is crucial in order to achieve saturation of nuclear matter. We demonstrate that the dependence of the pion exchange contributions to Ē(k f) on the "resolution" scale Λ can be compensated over a wide range of Λ by counterterms with two "running" contact couplings. As a further application we study the in-medium chiral condensate 〈q̄q〉 (ρ) beyond the linear density approximation. For ρ ≤ 1.5ρ0 we find small corrections from the derivative dĒ(k f)/dm π, which are stable against variations of the monopole regulator mass Λ.
KW - 12.38.Bx Perturbative calculations
KW - 21.65.+f Nuclear matter
UR - http://www.scopus.com/inward/record.url?scp=33846574149&partnerID=8YFLogxK
U2 - 10.1140/epja/i2006-10159-8
DO - 10.1140/epja/i2006-10159-8
M3 - Article
AN - SCOPUS:33846574149
SN - 1434-6001
VL - 31
SP - 53
EP - 60
JO - European Physical Journal A
JF - European Physical Journal A
IS - 1
ER -